Synthesis and Electrochromic Characterization of Graphene/V₂O₅/MoO₃Nanocomposite Films

Abstract: Graphene/V 2 O 5 /MoO 3 (GVM) films were fabricated by the sol-gel method. The structure, electrochemical and electrochromic properties were investigated by means of X-ray diffraction (XRD), X-ray photoemission spectroscopy (XPS), cyclic voltammetry, chronoamperometry and UV-Visible spectrophotometer. The optical modulatory range of the GVM film was enlarged to 25.35%, which is 1.38 times larger than that of V 2 O 5 (V) films. The cyclic stability is improved significantly and the films perform well in the res… Show more

“…Indeed, facile intercalationdesintercalation of Li + ions into the V2O5 interlayer spaces leads to redox phenomena associated with reversible changes of the optical properties. As far as we know, vanadium pentoxide is the typical oxide that shows both anodic and cathodic colorations, even if the literature pointed up other compositions such as mixed oxides based on vanadium [34][35][36][37] thus offering the possibility of obtaining multicolor displays [30][31][32][33] . However, the lithiation process in V2O5 bulk is reported to be relatively limited due to a combination of low electrical conductivity (10 -3 -10 -2 S.m -1 ) and small Li + diffusion coefficients (10 -13 -10 -12 cm 2 .s -1 ) [29][30][31]33 .…”

“…Because of its anisotropic structural framework based on pentacoordinated vanadium (with square-pyramidal geometry), forming a “lamellar” structure (planes of edge-sharing pyramids isolated from each other with a interlayer length of about 4 Å), V 2 O 5 is one of the most popular materials for electrochromic applications. ,,,− Indeed, facile intercalation–desintercalation of Li + ions into the V 2 O 5 interlayer spaces leads to redox phenomena associated with reversible changes of the optical properties. As far as we know, vanadium pentoxide is the typical oxide that shows both anodic and cathodic colorations, even if the literature has pointed out other compositions such as mixed oxides based on vanadium, − thus offering the possibility of obtaining multicolor displays. − However, the lithiation process in V 2 O 5 bulk is reported to be relatively limited due to a combination of low electrical conductivity (10 –3 –10 –2 S m –1 ) and small Li + diffusion coefficients (10 –13 –10 –12 cm 2 s –1 ). − , …”

Low-Cost and Facile Synthesis of the Vanadium Oxides V₂O₃, VO₂, and V₂O₅and Their Magnetic, Thermochromic and Electrochromic Properties

“…Indeed, facile intercalationdesintercalation of Li + ions into the V2O5 interlayer spaces leads to redox phenomena associated with reversible changes of the optical properties. As far as we know, vanadium pentoxide is the typical oxide that shows both anodic and cathodic colorations, even if the literature pointed up other compositions such as mixed oxides based on vanadium [34][35][36][37] thus offering the possibility of obtaining multicolor displays [30][31][32][33] . However, the lithiation process in V2O5 bulk is reported to be relatively limited due to a combination of low electrical conductivity (10 -3 -10 -2 S.m -1 ) and small Li + diffusion coefficients (10 -13 -10 -12 cm 2 .s -1 ) [29][30][31]33 .…”

“…Because of its anisotropic structural framework based on pentacoordinated vanadium (with square-pyramidal geometry), forming a “lamellar” structure (planes of edge-sharing pyramids isolated from each other with a interlayer length of about 4 Å), V 2 O 5 is one of the most popular materials for electrochromic applications. ,,,− Indeed, facile intercalation–desintercalation of Li + ions into the V 2 O 5 interlayer spaces leads to redox phenomena associated with reversible changes of the optical properties. As far as we know, vanadium pentoxide is the typical oxide that shows both anodic and cathodic colorations, even if the literature has pointed out other compositions such as mixed oxides based on vanadium, − thus offering the possibility of obtaining multicolor displays. − However, the lithiation process in V 2 O 5 bulk is reported to be relatively limited due to a combination of low electrical conductivity (10 –3 –10 –2 S m –1 ) and small Li + diffusion coefficients (10 –13 –10 –12 cm 2 s –1 ). − , …”

Low-Cost and Facile Synthesis of the Vanadium Oxides V₂O₃, VO₂, and V₂O₅and Their Magnetic, Thermochromic and Electrochromic Properties

“…The maximum current density obtained for the as-grown coating at 550 • C (Figure 6) was lower than the colloidal crystal-assisted electrodeposited amorphous three-dimensional ordered macroporous (0.5 mA·cm −2 [4]), sol-gel (0.6 mA·cm −2 [16]), aerosol-assisted CVD (1.5 mA·cm −2 [34]) V 2 O 5 , and was comparable with APCVD (0.01 mA·cm −2 [18]) and hydrothermal growth (0.05 mA·cm −2 [17]) of V 2 O 5 . This value was also lower than the one obtained from the vacuum deposited (0.6 mA·cm −2 [35]) tungsten trioxide (WO 3 ), and comparable with APCVD (0.02 mA·cm −2 [36]), evaporation-induced self-assembly (0.06 mA·cm −2 [37]), low-pressure CVD (0.08 mA·cm −2 [38]), and hydrothermal (0.04 mA·cm −2 [39]) growth WO 3 .…”

“…Electrochromic V 2 O 5 coatings have been prepared by electrodeposition [11,12], "Doctor Blade" [13], reactive sputtering [14], polyol process [15], sol-gel [16], and hydrothermal growth [17]. Strategies…”

Using an Atmospheric Pressure Chemical Vapor Deposition Process for the Development of V2O5 as an Electrochromic Material

“…The color change of these materials is a result of an electrochemical reaction. The initial state, which is usually transparent, changes to colored as a result of electrochemical reduction (the so-called cathodic materials) [3,4] or electrochemical oxidation (the so-called anodic materials) [5,6]. The tungsten trioxide is a well-known cathodic material [7].…”

The determination of electrolyte stability and conditions for electrochromic WO3 films deposition